CN216541834U

CN216541834U - Automatic change aluminium tuyere drilling equipment

Info

Publication number: CN216541834U
Application number: CN202122992564.6U
Authority: CN
Inventors: 刘英豪; 南彦东; 李洋洋
Original assignee: Bengbu Jinggong Glass Technology Co ltd
Current assignee: Bengbu Jinggong Glass Technology Co ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-05-17
Anticipated expiration: 2031-11-29

Abstract

The utility model discloses automatic aluminum air nozzle drilling equipment which can replace manual aluminum air nozzle drilling and improve the accuracy and efficiency of aluminum air nozzle drilling. The key points of the technical scheme are as follows: including processing line and drilling platform, the drilling platform includes frame and a plurality of drilling subassembly, a plurality of drilling subassemblies are arranged in proper order along the processing line direction, the drilling subassembly includes the crane span structure, mount pad and drilling unit head, the both ends and the frame of crane span structure are connected, the middle part swivelling joint of mount pad and crane span structure, and can fix on the crane span structure, the drilling unit head is furnished with the drill bit, the drilling unit head sets up on the mount pad, the processing line passes the drilling platform and is located the crane span structure below, the processing line includes the straight line track, power component, transport vechicle and the fixed subassembly that is used for fixed aluminium tuyere, power component can drive the transport vechicle along straight line track intermittent movement, the upper end and the fixed subassembly of transport vechicle are connected, when aluminium tuyere is fixed by fixed subassembly, aluminium tuyere length direction is parallel with straight line track direction.

Description

Automatic change aluminium tuyere drilling equipment

Technical Field

The utility model relates to the field of toughened glass equipment, in particular to automatic aluminum air nozzle drilling equipment.

Background

In the glass tempering process, the glass needs to be cooled by blowing, the blowing system comprises a fan and an air grid, an aluminum air nozzle is arranged on the air grid to blow the glass, and a plurality of air blowing holes are uniformly formed in the aluminum air nozzle.

When the blowholes of the aluminum tuyeres are processed, holes with different inclination angles need to be drilled according to positions, and now drilling points are generally marked on the aluminum tuyeres, and then the holes are drilled manually through a drilling machine.

The defects of the technology are as follows:

1. the inclination angle of the blowholes and the precision of the drilling positions are low, and the air blowing of the aluminum air nozzle is uneven, thereby influencing the glass toughening quality.

2. Drilling efficiency is low, and time and labor are wasted through manual work.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the background technology, and provides automatic aluminum tuyere drilling equipment which can replace manual drilling of aluminum tuyeres and improve the accuracy and efficiency of aluminum tuyere drilling.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

an automatic change aluminium tuyere drilling equipment, aluminium tuyere is the strip arch, and aluminium tuyere inside upwards arches and forms the recess, and aluminium tuyere outside includes air-out face, vertical face and inclined plane from top to bottom in proper order, air-out face includes a plurality ofly waits to drill the line with aluminium tuyere length direction parallel, still includes processing line and drilling platform, drilling platform includes frame and a plurality of drilling subassembly, the quantity of drilling subassembly is the same with the quantity of waiting to drill the line, and a plurality of drilling subassembly are arranged along processing line direction in proper order, and drilling subassembly includes crane span structure, mount pad and drilling unit head, the both ends and the frame of crane span structure are connected, and crane span structure and frame relative position are adjustable in the direction perpendicular with processing line, the middle part swivelling joint of mount pad and crane span structure, and can be furnished with the crane span structure, drilling unit head drill bit, drilling set up on the mount pad, and can rotate along with the mount pad in order to adjust drilling angle, the processing line passes the drill floor and is located the crane span structure below, and the processing line includes straight line track, power component, transport vechicle and is used for the fixed subassembly of fixed aluminium tuyere, power component can drive the transport vechicle along straight line track intermittent movement, the upper end of transport vechicle with fixed subassembly is connected, and aluminium tuyere is fixed by fixed subassembly when, and aluminium tuyere length direction is parallel with straight line track direction, and the transport vechicle can make aluminium tuyere both ends pass through a plurality of drilling subassemblies completely in proper order along straight line track movement, and the drilling unit head can be to aluminium tuyere drilling when the transport vechicle intermittent type stops.

Preferably, the fixing assembly comprises a plurality of positioning seats and at least one clamping group, an adjusting track is arranged at the upper end of the transport vehicle, the positioning seats can slide along the adjusting track and can be fixed on the adjusting track, a limiting block for limiting the movement of the aluminum tuyere along the direction vertical to the processing line is arranged in the middle of each positioning seat, the width of the limiting block is the same as that of an inner groove of the aluminum tuyere, the number of the clamping groups is not more than that of the positioning seats, the clamping groups are arranged on part or all of the positioning seats, each clamping group comprises two clamping structures symmetrically arranged at two ends of each positioning seat, each clamping structure comprises an air cylinder, a cylinder rod, a reset spring, a clamp body and a floating clamp head, the air cylinders are fixedly arranged at one ends of the positioning seats, one surfaces of the air cylinders are arranged towards the middle parts of the positioning seats, one ends of the clamp bodies are fixedly connected with free ends of the cylinder rods, and the floating clamp bodies are movably connected with the clamp bodies, the cylinder rod extends out to drive the floating chuck to be tightly attached to the vertical surface, two ends of the reset spring are respectively connected with the clamp body and the floating chuck, and the reset spring is combined with the thrust force of the cylinder rod in the horizontal direction to enable the floating chuck to be tightly attached to the inclined surface.

Preferably, the floating chuck comprises a round rod and two clamping plates, the clamping plates comprise an upper chuck and a lower chuck, two ends of the round rod are fixedly connected with the side surfaces of the two clamping plates respectively, the clamping body is provided with a vertical sliding groove, the round rod is positioned in the sliding groove, the round rod can slide and rotate along the sliding groove, in a natural state, the reset spring tensions the clamping plates to enable the round rod to be positioned at the lowest end of the sliding groove, when the cylinder rod is pushed by the cylinder to extend, the floating chuck is close to the air duct, and the lower clamping point contacts with the vertical surface firstly; then due to resistance, the clamping plate moves upwards along the sliding groove and rotates simultaneously, so that the lower clamping point slides downwards to the inclined plane, and the upper clamping point is attached to the vertical surface.

Preferably, the floating chuck is provided with two rollers for rolling along a vertical surface or an inclined surface, two ends of each roller are respectively and rotationally connected with the upper chuck or the lower chuck of the two clamping plates, and only the rollers on the floating chuck are in contact with the vertical surface or the inclined surface.

Preferably, the bridge frame comprises a base and two bridge plates, two ends of the two bridge plates are fixedly connected with two ends of the base along the machining line direction respectively, round holes are formed in the middle of the bridge plates, the mounting seat is cylindrical, two ends of the mounting seat are rotatably connected with the round holes in the two bridge plates respectively, a completely-penetrated mounting hole is formed in the side face of the mounting seat, and the drilling power head is arranged in the mounting hole.

Preferably, still be equipped with servo unit head on the mount pad, servo unit head and drilling unit head set up along waiting a drilling hole site of drilling line direction interval, the drilling hole site is the distance between waiting two adjacent drilling points on the drilling line, and servo unit head is furnished with the deburring cutter that goes the hole that the drilling unit head was bored out the chamfer through the deburring cutter that goes the hole.

Preferably, the drilling platform is provided with a recovery assembly for receiving drilling waste, the recovery assembly comprises a waste water tray, a filter plate and two guide plates, one end of each guide plate is arranged below the inlet end and the outlet end of the drilling platform respectively, the inlet end and the outlet end are respectively one end of the aluminum air nozzle entering the drilling platform and one end of the aluminum air nozzle leaving the drilling platform, the other ends of the two guide plates are respectively connected with two sides of the filter plate in a smooth transition mode, drill cuttings generated by drilling directly fall on the filter plate or along the guide plates, the waste water plate is arranged below the filter plate, the filter plate is provided with a plurality of through holes for water to pass through, the drilling power head and the servo power head are both provided with a liquid cooling system for cooling the drill bit, the liquid cooling system can spray cooling liquid on the drill bit when the drill bit of drilling unit head and servo unit head is worked, and the waste liquid can be by the through-hole flows to the waste water dish.

Preferably, the linear rail is provided with three position sensors, the position sensors are respectively arranged at the front end, the rear end and a processing starting point of the linear rail, and the processing starting point is an inlet position where the linear rail corresponds to the aluminum tuyere and enters the drilling platform.

Compared with the prior art, the automatic aluminum air nozzle drilling equipment adopting the technical scheme has the following beneficial effects:

when the automatic aluminum air nozzle drilling equipment is used, a worker only needs to put the aluminum air nozzle on the fixing assembly for fixing, the power assembly can be controlled through a program to drive the aluminum air nozzle to move along the processing line according to a preset requirement, the drilling power head can drill holes on the aluminum air nozzle when the transport vehicle stops intermittently, the drilling power head and different lines to be drilled can be drilled in a one-to-one correspondence mode by adjusting the position of the bridge frame relative to the vertical direction of the processing line, meanwhile, the angle of the drilling power head can be adjusted, the angle of the drilled hole of the drilling power head meets the air blowing requirement of the aluminum air nozzle, the air blowing efficiency is higher and more uniform, the aluminum air nozzle can be ensured to be drilled completely after two ends of the aluminum air nozzle sequentially and completely pass through the plurality of drilling assemblies, manual drilling is replaced, and the efficiency and the processing precision are high.

Two, the stopper on fixed subassembly through the positioning seat can prevent to control about the aluminium tuyere, unsteady chuck can cooperate the stopper to press from both sides tight aluminium tuyere, go up the chuck simultaneously or the chuck cooperation down can paste vertical face and the inclined plane of tight aluminium tuyere simultaneously, the inclined plane of having pasted on the aluminium tuyere prevents that the aluminium tuyere from reciprocating, influence drilling quality, in the preferred scheme, the setting of gyro wheel can be avoided going up the chuck or the direct and aluminium tuyere's of lower chuck surface contact, prevent to float the chuck in the clamping process edge and appear wearing and tearing along aluminium tuyere surface slip.

And thirdly, the servo power head is provided with a plurality of gears and can fast forward and slowly advance, when the air nozzle hole (the hole drilled by the drilling power head) is entered, the air nozzle hole is firstly and fast advanced to completely pass through, then the air nozzle hole is slowly withdrawn a little to ensure that the hole and burr removing tool drills a chamfer at the end, far away from the outer surface, of the air nozzle hole, then the tool is rapidly withdrawn, the servo power head and the drilling power head are spaced by one hole drilling position along the direction of the line to be drilled, the servo power head performs chamfering treatment on the last drilled hole while drilling the hole by the drilling power head, and the chamfering treatment is subsequently performed without manual operation.

And fourthly, the recovery assembly can respectively recover the waste materials and the waste liquid generated in the drilling process, so that the pollution to a working place is avoided.

The front end, the rear end and the machining starting point of the linear track are respectively arranged on the three position sensors, the position sensors at the front end and the rear end can be matched with a control program to prevent the transport vehicle from being separated from the linear track, the position sensors at the machining starting point can detect the aluminum air nozzle to be in place, when the aluminum air nozzle enters the drilling platform, the servo power head starts to work, the servo power head is prevented from being in a working state all the time, and energy is saved.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an automated aluminum tuyere drilling apparatus of the present invention.

Fig. 2 is a schematic structural diagram (side view) of the present embodiment.

Fig. 3 is a schematic structural diagram (top view) of the present embodiment.

Fig. 4 is a schematic structural diagram (top view) of the present embodiment.

Fig. 5 is a schematic structural view (side view) of the drilling table in the present embodiment.

Fig. 6 is a schematic view showing the operation of the floating clamp according to this embodiment.

Fig. 7 is a schematic perspective view of the drilling table of the present embodiment.

Fig. 8 is a schematic structural diagram (top view) of the drilling table in this embodiment.

Reference numerals: 1. an aluminum tuyere; 10. a groove; 11. an air outlet surface; 110. drilling a hole line; 12. a vertical plane; 13. a bevel; 2. processing lines; 20. a linear track; 201. a position sensor; 21. a transport vehicle; 210. adjusting the track; 211. a handle; 22. a fixing assembly; 220. positioning seats; 2201. a limiting block; 221. a clamping group; 2210. a cylinder; 2211. a lever; 2212. a return spring; 2213. a clip body; 22130. a chute; 2214. a floating chuck; 22140. a round bar; 22141. a splint; 22142. an upper chuck; 22143. a lower chuck; 22144. a roller; 3. a drilling table; 30. a frame; 31. a drilling assembly; 310. a bridge frame; 3101. a base; 3102. a bridge plate; 31020. a circular hole; 3103. a slide rail; 311. a mounting seat; 3110. mounting holes; 312. drilling a power head; 313. a servo power head; 32. a recovery assembly; 320. a wastewater pan; 321. a filter plate; 3210. a through hole; 322. a guide plate.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 8, automatic aluminum air nozzle drilling equipment comprises an aluminum air nozzle 1, a processing line 2, a drilling platform 3 and a control cabinet, wherein the aluminum air nozzle 1 is in a strip arch shape, a groove 10 is formed in the aluminum air nozzle 1 in an upward arching mode, the outside of the aluminum air nozzle 1 sequentially comprises an air outlet surface 11, a vertical surface 12 and an inclined surface 13 from top to bottom, and the air outlet surface 11 comprises four parallel to-be-drilled lines 110 in the length direction of the aluminum air nozzle 1.

The drilling platform 3 comprises a rack 30, a recovery assembly 32 for receiving drilling waste and four drilling assemblies 31, wherein the four drilling assemblies 31 are arranged at equal intervals along the direction of the processing line 2, and each drilling assembly 31 comprises a bridge frame 310, a mounting seat 311, a drilling power head 312 and a servo power head 313;

the bridge frame 310 comprises a base 3101 and two bridge plates 3102, the base 3101 is connected with a frame 30 through slide rails 3103, the direction of the slide rails 3103 is vertical to the direction of a processing line 2, meanwhile, the base 3101 and the frame 30 can be relatively fixed through bolts, two ends of the two bridge plates 3102 are respectively fixedly connected with two ends of the base 3101 along the direction of the processing line 2, a round hole 31020 is arranged in the middle of the bridge plate 3102, a mounting seat 311 is cylindrical, two ends of the mounting seat 311 are respectively rotatably connected with the round holes 31020 on the two bridge plates 3102, the mounting seat 311 can be fixed on the bridge plate 3102 through screwing the bolts, two completely through mounting holes 3110 are arranged on the side surface of the mounting seat 311, two mounting holes 3110 are separated by a drilling hole position along the direction of the line 110 to be drilled, the drilling hole position is the distance between two adjacent drilling points on the line 110 to be drilled, a drilling power head 312 and a servo power head 313 are respectively arranged in the two mounting holes 3110 and can rotate along with the mounting seat 311 to adjust the drilling angle, the servo head 313 is provided with a deburring tool by which the hole drilled by the drilling head 312 can be chamfered.

The reclamation assembly 32 includes a waste tray 320, filter 321 and two inclined guide plates 322, the entry end of rig floor 3 and the below of exit end are located respectively to two guide plate 322's one end, entry end and exit end are the one end that aluminium tuyere 1 got into rig floor 3 and leave rig floor 3's one end respectively, two guide plate 322's the other end respectively with the both sides smooth transition connection of filter 321, the drill chip that the drilling produced directly falls on filter 321 or along guide plate 322, waste water dish 320 locates the below of filter 321, filter 321 evenly is equipped with a plurality of through-holes 3210 that supply water passes through, drilling unit head 312 and servo unit head 313 all are furnished with the liquid cooling system who is used for cooling the drill bit, the liquid cooling system is not drawn in the picture for current drilling cooling technology, the liquid cooling system can spout cooling liquid on the drill bit when drilling unit head 312 and servo unit head 313's drill bit during operation, the waste liquid can be flowed to waste water dish 320 by through-hole 3210.

The processing line 2 passes through the drilling platform 3 and is located below the bridge frame 310, the processing line 2 comprises a linear rail 20, a power assembly, a transport vehicle 21 and a fixing assembly 22 for fixing the aluminum tuyere 1, the control cabinet is a control center, the power assembly is electrically connected with the control cabinet, the power assembly is matched with the control cabinet to drive the transport vehicle 21 to intermittently move along the linear rail 20, the linear rail 20 is provided with three position sensors 201, the position sensors 201 are respectively arranged at the front end, the rear end and a processing starting point of the linear rail 20, and the processing starting point is an inlet position where the linear rail 20 enters the drilling platform 3 corresponding to the aluminum tuyere 1.

The upper end and the fixed subassembly 22 of transport vechicle 21 are connected, and when aluminium tuyere 1 was fixed by fixed subassembly 22, aluminium tuyere 1 length direction was parallel with straight line track 20 direction, and transport vechicle 21 moves along straight line track 20 and can makes aluminium tuyere 1 both ends pass through a plurality of drilling subassemblies 31 completely in proper order, and drilling unit head 312 can be to aluminium tuyere 1 drilling when transport vechicle 21 intermittent type stops.

The fixing assembly 22 comprises six positioning seats 220 and three clamping groups 221, the upper end of the transport cart 21 is provided with an adjusting track 210 and a handle 211, the positioning seats 220 can slide along the adjusting track 210, the transport cart 21 can be fixed on the adjusting track 210 by tightening the handle 211, the middle part of the positioning seats 220 is provided with a limiting block 2201 for limiting the movement of the aluminum tuyere 1 along the direction vertical to the processing line 2, the width of the limiting block 2201 is the same as the width of the inner groove 10 of the aluminum tuyere 1, the number of the clamping groups 221 is not more than the number of the positioning seats 220, the clamping groups 221 are arranged on part or all of the positioning seats 220, the clamping groups 221 comprise two clamping structures symmetrically arranged at two ends of the positioning seats 220, each clamping structure comprises a cylinder 2210, a cylinder rod, a reset spring 2212, a clamp 2213 and a floating chuck 2214, the cylinder 2210 is fixedly arranged at one end of the positioning seat 220, one surface of the cylinder rod of the cylinder 2210 faces the middle part of the positioning seats 220, one end of the clamp 2213 is fixedly connected with the free end of the cylinder rod, the floating clamp 2214 is movably connected with the clamp 2213, the cylinder rod extends out to drive the floating clamp 2214 to be tightly attached to the vertical surface 12, two ends of the return spring 2212 are respectively connected with the clamp 2213 and the floating clamp 2214, and the return spring 2212 is combined with the horizontal thrust of the cylinder rod to enable the floating clamp 2214 to be tightly attached to the inclined surface 13.

The floating clamp 2214 comprises a round rod 22140 and two clamping plates 22141, the clamping plates 22141 comprise an upper clamp 22142 and a lower clamp 22143, two ends of the round rod 22140 are fixedly connected with the side surfaces of the two clamping plates 22141 respectively, the clamp body 2213 is provided with a vertical sliding groove 22130, the round rod 22140 is positioned in the sliding groove 22130, the round rod 22140 can slide and rotate along the sliding groove 22130, in a natural state, a return spring 2212 tensions the clamping plate 22141 to enable the round rod 22140 to be positioned at the lowest end of the sliding groove 22130, when the cylinder 2210 pushes the cylinder rod to extend, the floating clamp 2214 is close to the air row, and the lower clamp point contacts the vertical surface 12 firstly; then, due to the resistance, the clamping plate 22141 moves up along the sliding groove 22130 and rotates simultaneously, so that the lower clamping point slides down to the inclined surface 13, and the upper clamping point is attached to the vertical surface 12.

The floating cartridge 2214 is provided with two rollers 22144 for rolling along the vertical surface 12 or the inclined surface 13, both ends of the roller 22144 are rotatably connected with the upper cartridge 22142 or the lower cartridge 22143 of the two clamping plates 22141, respectively, and only the roller 22144 on the floating cartridge 2214 is in contact with the vertical surface 12 or the inclined surface 13.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims

1. The utility model provides an automatic change aluminium tuyere drilling equipment, aluminium tuyere is a strip arch, and the inside hunch-up formation recess that makes progress of aluminium tuyere, aluminium tuyere outside includes air-out face, vertical face and inclined plane from top to bottom in proper order, the air-out face includes a plurality ofly and aluminium tuyere length direction parallel treats drilling line, its characterized in that: comprises a processing line and a drilling platform,

the drilling platform comprises a rack and a plurality of drilling assemblies, the number of the drilling assemblies is the same as that of the lines to be drilled, the drilling assemblies are sequentially arranged along the direction of a processing line, each drilling assembly comprises a bridge, an installation seat and a drilling power head, the two ends of the bridge are connected with the rack, the relative position of the bridge and the rack is adjustable in the direction perpendicular to the processing line, the installation seats are rotatably connected with the middle of the bridge and can be fixed on the bridge, the drilling power heads are provided with drill bits, the drilling power heads are arranged on the installation seats and can rotate along with the installation seats to adjust the drilling angles,

the processing line passes the drill floor and is located the crane span structure below, and the processing line includes straight line track, power component, transport vechicle and is used for the fixed subassembly of fixed aluminium tuyere, power component can drive the transport vechicle along straight line track intermittent movement, the upper end of transport vechicle with fixed subassembly is connected, and aluminium tuyere is fixed by fixed subassembly when, and aluminium tuyere length direction is parallel with straight line track direction, and the transport vechicle can make aluminium tuyere both ends pass through a plurality of drilling subassemblies completely in proper order along straight line track movement, and the drilling unit head can be to aluminium tuyere drilling when the transport vechicle intermittent type stops.

2. The automated aluminum tuyere drilling apparatus of claim 1, wherein: the fixing assembly comprises a plurality of positioning seats and at least one clamping group, an adjusting track is arranged at the upper end of the transport vehicle, the positioning seats can slide along the adjusting track and can be fixed on the adjusting track, a limiting block used for limiting the aluminum tuyere to move along the direction vertical to the processing line is arranged in the middle of each positioning seat, the width of the limiting block is the same as that of an inner groove of the aluminum tuyere, the number of the clamping groups is not more than that of the positioning seats, the clamping groups are arranged on part or all of the positioning seats, each clamping group comprises two clamping structures symmetrically arranged at two ends of each positioning seat,

the clamping structure comprises an air cylinder, a cylinder rod, a reset spring, a clamp body and a floating chuck, wherein the air cylinder is fixedly arranged at one end of the positioning seat, one surface of the air cylinder, which is provided with the cylinder rod, faces the middle part of the positioning seat, one end of the clamp body is fixedly connected with the free end of the cylinder rod, the floating chuck is movably connected with the clamp body, the cylinder rod extends out to drive the floating chuck to be attached to a vertical surface, two ends of the reset spring are respectively connected with the clamp body and the floating chuck, and the reset spring is combined with the thrust of the cylinder rod in the horizontal direction to enable the floating chuck to be attached to an inclined surface.

3. The automated aluminum tuyere drilling apparatus of claim 2, wherein: the floating chuck comprises a round rod and two clamping plates, the clamping plates comprise an upper chuck and a lower chuck, two ends of the round rod are fixedly connected with the side surfaces of the two clamping plates respectively, the clamping body is provided with a vertical sliding groove, the round rod is positioned in the sliding groove, the round rod can slide and rotate along the sliding groove, in a natural state, the reset spring tensions the clamping plates to enable the round rod to be positioned at the lowest end of the sliding groove, when the cylinder rod is pushed by the air cylinder to extend, the floating chuck is close to the air duct, and the lower chuck contacts with the vertical surface firstly; then due to resistance, the clamping plate moves upwards along the sliding groove and rotates simultaneously, so that the lower clamping head slides downwards to the inclined surface, and the upper clamping head is tightly attached to the vertical surface.

4. The automated aluminum tuyere drilling apparatus of claim 3, wherein: the floating chuck is provided with two rollers for rolling along a vertical surface or an inclined surface, two ends of each roller are respectively and rotationally connected with the upper chuck or the lower chuck of the two clamping plates, and only the rollers on the floating chuck are in contact with the vertical surface or the inclined surface.

5. The automated aluminum tuyere drilling apparatus of claim 1, wherein: the bridge frame comprises a base and two bridge plates, the two ends of the two bridge plates are fixedly connected with the two ends of the base along the machining line direction respectively, round holes are formed in the middle of the bridge plates, the mounting seat is cylindrical, the two ends of the mounting seat are rotatably connected with the round holes in the two bridge plates respectively, complete mounting holes are formed in the side face of the mounting seat, and the drilling power head is arranged in the mounting holes.

6. The automated aluminum tuyere drilling apparatus of claim 1, wherein: still be equipped with servo unit head on the mount pad, servo unit head and drilling unit head set up along waiting to drill hole site of line direction interval, the drilling site is the distance between two adjacent drilling points on waiting to drill the line, and servo unit head is furnished with the burr cutter that goes hole, can drill out the chamfer with the hole that the drilling unit head bored through the burr cutter that goes hole.

7. The automated aluminum tuyere drilling apparatus of claim 6, wherein: the drilling platform is provided with a recovery assembly for receiving drilling waste, the recovery assembly comprises a waste water tray, a filter plate and two guide plates, one end of each guide plate is arranged below the inlet end and the outlet end of the drilling platform respectively, the inlet end and the outlet end are respectively one end of the aluminum air nozzle entering the drilling platform and one end of the aluminum air nozzle leaving the drilling platform, the other ends of the two guide plates are respectively connected with the two sides of the filter plate in a smooth transition mode, drill cuttings generated by drilling fall on the filter plate directly or along the guide plates, the waste water plate is arranged below the filter plate, the filter plate is provided with a plurality of through holes for water to pass through, the drilling power head and the servo power head are both provided with a liquid cooling system for cooling the drill bit, the liquid cooling system can spray cooling liquid on the drill bit when the drill bit of drilling unit head and servo unit head is worked, and the waste liquid can be by the through-hole flows to the waste water dish.

8. The automated aluminum tuyere drilling apparatus of claim 1, wherein: the linear rail is provided with three position sensors, the position sensors are respectively arranged at the front end, the rear end and a processing starting point of the linear rail, and the processing starting point is an inlet position where the linear rail corresponds to the aluminum tuyere and enters the drilling platform.